Glycine 384 is required for presenilin-1 function and is conserved in bacterial polytopic aspartyl proteases.

Endoproteolysis of beta-amyloid precursor protein (betaAPP) and Notch requires conserved aspartate residues in presenilins 1 and 2 (PS1 and PS2). Although PS1 and PS2 have therefore been proposed to be aspartyl proteases, no homology to other aspartyl proteases has been found. Here we identify homology between the presenilin active site and polytopic aspartyl proteases of bacterial origin, thus supporting the hypothesis that presenilins are novel aspartyl proteases.

A loss of function mutation of presenilin-2 interferes with amyloid beta-peptide production and notch signaling.

Presenilin-1 (PS1) facilitates gamma-secretase cleavage of the beta-amyloid precursor protein and the intramembraneous cleavage of Notch1. Although Alzheimer's disease-associated mutations in the homologous presenilin (PS2) gene elevate amyloid beta-peptide (Abeta42) production like PS1 mutations, here we demonstrate that a gene ablation of PS2 (unlike that of PS1) in mice does not result in a severe phenotype resembling that of Notch-ablated animals. To investigate the amyloidogenic function of PS2 more directly, we mutagenized a conserved aspartate at position 366 to alanine, because the corresponding residue of PS1 is known to be required for its amyloidogenic function. Cells expressing the PS2 D366A mutation exhibit significant deficits in proteolytic processing of beta-amyloid precursor protein indicating a defect in gamma-secretase activity. The reduced gamma-secretase activity results in the almost complete inhibition of Abeta and p3 production in cells stably expressing PS2 D366A, whereas cells overexpressing the wild-type PS2 cDNA produce robust levels of Abeta and p3. Using highly sensitive in vivo assays, we demonstrate that the PS2 D366A mutation not only blocks gamma-secretase activity but also inactivates PS2 activity in Notch signaling by inhibiting the proteolytic release of the cytoplasmic Notch1 domain. These data suggest that PS2 is functionally involved in Abeta production and Notch signaling by facilitating similar proteolytic cleavages.

On the insertion of foreign DNA into mammalian genomes: mechanism and consequences.

We have studied the integration of adenovirus type 12 (Ad12) DNA in transformed and hamster tumor cells over many years. Upon infection of hamster cells with Ad12, viral DNA has been found in association with hamster chromosomes, possibly in part integrated into the host genome. Ad12 DNA integration is not sequence specific. Transcriptionally active sites of the host genome show a preponderance for foreign DNA insertion. We are pursuing the mechanism of Ad12 DNA integrative recombination in a cell-free system prepared from hamster cell nuclear extracts. In a number of Ad12-transformed hamster cell lines or in cell lines carrying foreign DNA, we have located the inserted Ad12 DNA copies on hamster chromosomes by fluorescent in situ hybridization (FISH). Among the consequences of Ad12 DNA integration, we have studied the de novo methylation of the integrated foreign (Ad12) DNA and increases in DNA methylation in several cellular genes and DNA segments in Ad12-transformed and hamster tumor cells. Several lines of evidence argue for the notion that parameters in addition to nucleotide sequence, in particular site of integration and/or the chromatin configuration of the integrated DNA, are important in generating de novo methylation patterns. The de novo methylation of integrated foreign DNA can be interpreted as an old cellular defense mechanism against the activity of foreign genes in an established genome. Pursuing this concept, we have asked for the most likely portal of entry of foreign DNA, supposedly the gastrointestinal tract in most animals. This hypothesis has been tested by feeding mice linearized or circular, double-stranded bacteriophage M13mp18 DNA.(ABSTRACT TRUNCATED AT 250 WORDS)

Fractionated nuclear extracts from hamster cells catalyze cell-free recombination at selective sequences between adenovirus DNA and a hamster preinsertion site.

We have explored the mechanism of adenovirus type 12 (Ad12) DNA integration because of its importance for viral oncogenesis and as an example of insertional recombination. We have used a fractionated cell-free system from nuclear extracts of hamster cells and have partly purified nuclear proteins that could catalyze in vitro recombination. As recombination partners, the 20,880- to 24,049-nucleotide Pst I D fragment of Ad12 DNA and the hamster preinsertion sequence p7 from the Ad12-induced tumor CLAC1 have proven to recombine at higher frequencies than randomly selected adenoviral or cellular DNA sequences. A preinsertion sequence might carry elements essential in eliciting recombination. Patch homologies between the recombination partners seem to play a role in the selection of sites for recombination in vivo and in the cell-free system. Nuclear extracts from BHK21 cells were prepared by incubating the nuclei in 0.42 M (NH4)2SO4 and fractionated by Sephacryl S-300 gel filtration, followed by chromatography on Mono S and Mono Q columns. The purified products active in recombination contained a limited number of different protein bands, as determined by polyacrylamide gel electrophoresis and silver staining. The most highly purified fraction IV had helicase and topoisomerase I activities. We used two different methods to assess the in vitro generation of hamster DNA-Ad12 DNA recombinants upon incubation with the purified protein fractions: (i) transfection of the recombination products into recA- strains of Escherichia coli and (ii) the polymerase chain reaction by using amplification primers unique for each of the two recombination partners. In p7 hamster DNA, the nucleotide sequence 5'-CCTCTCCG-3' or similar sequences served repeatedly as a preferred recombination target for Ad12 DNA in the tumor CLAC1 and in five independent cell-free recombination experiments.

Recombination between adenovirus type 12 DNA and a hamster preinsertion sequence in a cell-free system. Patch homologies and fractionation of nuclear extracts.

We have previously described a cell-free recombination system derived from hamster cell nuclear extracts in which the in vitro recombination between a hamster preinsertion sequence, the cloned 1768 base-pair p7 fragment, and adenovirus type 12 (Ad12) DNA has been demonstrated. The nuclear extracts have now been subfractionated by gel filtration on a Sephacryl S-300 column. The activity promoting cell-free recombination elutes from the Sephacryl S-300 matrix with the shoulder and not the peak fractions of the absorbancy profile. By using these protein subfractions, in vitro recombinants have been generated between the p7 preinsertion sequence and the 60 to 70 map unit fragment of Ad12 DNA, which has previously shown high recombination frequency. In all of the analyzed recombinants thus produced in vitro, striking patchy homologies have been observed between the p7 and Ad12 junction sequences, and between Ad12 DNA or p7 DNA and pBR322 DNA. The patchy homologies are similar to those found earlier during the analyses of some of the junction sequences in integrated Ad12 genomes in Ad12-induced hamster tumor cell lines. Proteins in the shoulder fractions of the gel-filtration experiment can form specific complexes with double-stranded synthetic oligodeoxyribonucleotides corresponding to several p7 and Ad12 DNA sequences. These sequences participate in the recombination reactions catalyzed by the same column fractions in the shoulder of the absorbancy profile. Such proteins have not been found in the peak fractions. Further work will be required to ascertain that the cell-free recombination system mimics certain elements of the mechanisms of integrative recombination and to purify the cellular components essential for recombination.